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101.
以含锌磷化渣为原料,先用氢氧化钠浸取制得磷酸钠溶液,再采用萃取法去除该溶液中的微量锌,在净化液中加入六水合氯化铁反应制得磷酸铁产品。实验结果表明:采用氢氧化钠浸取磷化渣,能有效地去除磷化渣中的金属离子,获得含微量锌的磷酸钠溶液,磷酸根的浸取率可达93.97%,磷酸根的总利用率可达78.31%;采用双硫腙与P204萃取剂对该溶液进行萃取,其双萃取剂混合萃锌效果明显优于它们相应的单种萃取剂萃锌效果。在有机相与水相体积比=1∶5时,锌的单级萃取率可达55.39%,产品磷酸铁中锌含量低于30.0 μg/g。研究表明,采用氢氧化钠浸取和双硫腙与P204双萃取剂除杂的方法,可有效回收含锌磷化渣中的磷酸根并制备出电池级磷酸铁。 相似文献
102.
介绍近年关于FCC催化剂铁中毒现象的研究进展。平衡剂上铁存在新鲜催化剂自身铁、原油原有铁和过程铁3个来源,其中,高酸原油的过程铁含量已不容忽视。催化裂化过程中,原料油中以环烷酸铁为主的铁物种不断沉积在催化剂的表面,与催化剂中的钠、氧化硅形成低熔点共熔物,形成覆盖平衡剂表面的光滑结构,堵塞催化剂的孔道,导致汽油产率下降,严重影响装置稳定运行。根据铁中毒的机理研究,提出加强人员技术交流与培训、提高分析检测频次、应用抗铁污染催化剂、铁中毒解决方案等预防和应急措施,为加工高铁含量原料油催化裂化装置的长期稳定运行提供技术参考。 相似文献
103.
《Journal of the European Ceramic Society》2020,40(12):4323-4331
Reducing the viscosity of high solid-loading ceramic suspensions and controlling the resolution of ceramic green parts produced by digital light processing (DLP) 3D printing are two important concerns in the ceramic additive manufacturing industry. The presence of ceramic particles within a photopolymerizable system leads to light scattering that reduces the resolution of the ceramic green scaffolds. This study introduced a graphite additive to solve these problems and focused on the effects of graphite concentration on the viscosity, curing behaviour and scaffold fabrication of β-TCP ceramic suspensions. As a result, it was found that an appropriate addition of graphite reduced the viscosity of the ceramic suspensions, and the light scattering decreased with the increase of graphite concentration. Both the cure depth (Cd) and excess width (Cex) also decreased with the increase of graphite concentration. But, graphite has a larger effect on the width curing than depth curing. 相似文献
104.
《Ceramics International》2022,48(5):6461-6469
Native bone is piezoelectric in nature and generates abundant surface charges under mechanical compression, which regulate osteoblast proliferation, differentiation, adhesion, and so on. Poly (vinylidene fluoride) (PVDF) is becoming one of the most popular piezoelectric polymers because of its easy processability and good biocompatibility. Unfortunately, because only the β and γ crystal phases of PVDF have piezoelectricity, post-treatments, for example, polarizing at high temperature, are required to enhance the piezoelectricity of PVDF scaffolds after fabrication. In this study, we reported a phase-separation-hydration method to fabricate a calcium phosphate silicate (CPS)-doped PVDF scaffold. Our method fabricated a better piezoelectric scaffold than native bone without further processing (~ 3 pC/N vs. 0.7 pC/N). In addition, the scaffold was mechanically compatible (~ 7 MPa) with the cancellous bone with sufficient porosity (~ 45%) to facilitate osteoblast infiltration and bone ingrowth. The in vitro biocompatibility analyses proved that the prepared CPS-PVDF scaffold was biocompatible with osteoblast cells and encouraged osteoblast redifferentiation. In conclusion, our results suggest that this CPS-PVDF scaffold is a promising candidate for bone tissue engineering applications. 相似文献
105.
在“碳达峰”“碳中和”背景下,中国钢铁必须走脱碳化发展道路,提高能效是当前最为行之有效的举措之一。通过分析钢铁行业存在的较大节能潜力及拥有丰富二次能源的用能特点,在热力学定律、系统最小外部损失、最佳推动力、能源梯级利用等几项基本原则的基础上,提出钢铁行业多能互补与储能相结合的创新理念,包括钢铁二次能源与可再生能源的互补、钢铁不同高低品位能源的互补、储能系统的创新应用等。从中长期看,需以更高的站位,走能源资源环境、高效清洁低碳一体化协同创新道路,构建化工-能源-生态一体化用能系统,进行合理优化与集成,实现能效提升及协同碳减排。 相似文献
106.
《International Journal of Hydrogen Energy》2021,46(78):38755-38767
Metal hydrides have been demonstrated as energy storage materials for thermal battery applications. This is due to the high energy density associated with the reversible thermochemical reaction between metals and hydrogen. Magnesium iron hydride (Mg2FeH6) is one such material that has been identified as a thermal energy storage material due to its reversible hydrogenation reaction at temperatures between 400 and 600 °C. This study demonstates an automated thermal battery prototype containing 900 g of Mg2FeH6 as the thermal energy storage material with pressurised water acting as the heat transfer fluid to charge and discharge the battery. The operating conditions of the system were optimised by assessing the ideal operating temperature, flow rate of the heat transfer fluid, and hydrogen pressures. Overall, excellent cyclic energy storage reversibility was demonstrated between 410 and 450 °C with a maximum energy capacity of 1650 kJ which is 87% of the theoretical value (1890 kJ). 相似文献
107.
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109.
To boost the performance of the iron‐chromium redox flow battery (ICRFB), opting an appropriate proton exchange membrane (PEM) as the core component of ICRFB is of great importance. For the purpose, in this paper, various widely adopted commercial Nafion membranes with a different thickness of 50 μm (Nafion 212, N212), 126 μm (N115), and 178 μm (N117) are chosen for the sake of evaluating the influence of membrane thickness on the ICRFB single‐cell performance. Physicochemical properties, electrolyte utilization, cell efficiency, long‐term cycling stability, and the self‐discharge process of ICRFBs based on a series of Nafion membranes are contrasted comprehensively. The cycling test of ICRFBs is carried out under the current density range of 40 to 120 mA/cm2 for the charge‐discharge process. As a result of the good equilibrium of membrane resistance and electro‐active species permeability, Nafion 212 membrane exhibits the highest electrolyte utilization and energy efficiency during the operation, accompanied by the lowest overpotential. In the final part, the selection of Nafion membrane thickness was optimized on the basis of single‐cell performance and the overall cost of the system. 相似文献